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Consider the guidelines below when evaluating standards for continuous static magnetic field exposure for the magnets operating in your lab.
Super-conducting magnets used for nuclear magnetic resonance (NMR) spectroscopy are the source of powerful static magnetic fields.
There are no known adverse biological effects in static magnetic fields within the exposure values established by the American Conference of Governmental Industrial Hygienists (ACGIH).
An international committee is currently reviewing the issue of exposure and occupational safety. Until further information becomes available, use your best judgment and conservative practices.
| Abbreviations used in this table: G – Gauss; a unit of magnetic field intensity, equal to 0.0001 Tesla mT – millitesla T – Tesla; magnetic field strength is measured in Tesla TWA – time weighted average Note: 1 Gauss (G) = 0.1 millitesla (mT) |
|
| 5 G (0.5mT) | Highest allowed field for implanted cardiac pacemakers |
| 10G (1.0mT) | Damage to watches, credit cards, magnetic tape, and computer disks |
| 30G (3.0mT) | Kinetic energy hazard from small ferrous objects |
| 600 G (60mT) | Allowed TWA for routine exposure (whole body) (8-hour TWA*) |
| 6000 G (600mT) | Allowed TWA for routine exposure (extremities) (8-hour TWA*) |
| 20,000 G (2T) | Whole body ceiling limit (no exposure allowed above this limit) |
| 50,000 G (5T) | Extremity ceiling limit (no exposure allowed above this limit) |
| * TWA exposure time is normally a concern only for extremely high field exposures to the whole body. |
1 2003 TLVS® and BEIs® based on the "Documentation of the Threshold Limit Values for Chemical Substances and Physical Agents & Biological Exposure Indices," ACGIH Worldwide, p. 142.